JP4779319B2 - Garbage drying processing machine - Google Patents

Description

  The present invention relates to a garbage drying processing machine for drying and reducing the amount of garbage generated in general households and food factories, restaurants, fast food stores and the like.

  2. Description of the Related Art Conventionally, as a device for reducing or eliminating garbage, there are generally used a drying method and a decomposition method using microorganisms for both home use and business use.

  The drying method is well known to have heating means (combustion, electric heater, etc.), raise the temperature of the garbage in the processing vessel, evaporate the moisture in the garbage, and dry and reduce the amount. (For example, refer to Patent Document 1).

  The garbage drying processing machine described in Patent Document 1 will be described with reference to FIG. In order to attach and detach the heating means 32 for heating the garbage 39 in the garbage storage part 31 arranged in the main body 29, the air blowing means 33, the stirring means 34 for the garbage 39, and the garbage storage part 31, A body lid 30 that can be freely opened and closed is provided. The discharge means 35 is composed of a fan or the like for discharging the exhaust gas such as steam and odor components generated when the garbage 39 is dried and reduced to the outside of the main body 29, and a catalyst deodorization device 36 that can remove the odor components in the exhaust gas. It is discharged to the outside of the main body 29 via the. The dryness detection unit 37 is provided in the path of the discharge unit 35. The control means 38 controls the heating means 32 and the like based on information from the dryness detection means 37.

  In the above configuration, the garbage 39 in the garbage storage unit 31 is heated by the heating means 32 and the air blowing means 33 and is simultaneously dried while being stirred and pulverized by the stirring means 34. Vapor and odor components generated in the drying process of the garbage 39 are deodorized by the discharge means 35 in the catalyst deodorization device 36 by a catalytic reaction and discharged out of the main body 29. At this time, since the inside of the garbage storage unit 31 is depressurized at the same time, outside air is introduced from the outside.

The end of drying of the garbage 39 is generally determined by detecting the exhaust temperature by the drying detection means 37 and determining the end time. After the completion of drying, the catalyst deodorizing device 36 and the discharge means 35 are operated for a certain period of time, the garbage storage unit 31 is cooled, and after completion of the entire process, the garbage storage unit 31 is taken out without being burned. Dried garbage 39 can be thrown away.
JP-A-8-014749

  However, in the conventional garbage drying processing machine, depending on the ability of the stirring means 34, the timing of contact between the warm air by the heating means 32 and the air blowing means 33 and the garbage 39 may be deteriorated, resulting in uneven drying. is there. For this reason, there are problems that the drying time is extended and the power consumption is increased.

  The present invention solves the above-described conventional problems, and an object thereof is to provide a garbage drying processing machine capable of drying garbage in a short time with less power consumption (electricity cost) without drying unevenness.

In order to solve the above conventional problems, the garbage drying processing machine of the present invention,
First conveying means for compressing and conveying the input garbage,
A first heating means for heating the surface of said first conveying means,
Stirring the garbage which is compressed heated downstream of the first conveying means, and means loosening of grinding,
And second conveying means for conveying and compressing the garbage in the downstream side of the loosening means again,
A second heating means for heating the surface of said second conveying means,
Intake and exhaust means for discharging steam,
The loosening means is
A second intake port and a second exhaust port communicating with the intake and exhaust means;
The intake and exhaust means is
First temperature detection means and a heat exchanger provided in the vicinity of the exhaust port of the intake and exhaust means;
Second temperature detection means provided near the intake port of the intake and exhaust means;
An intake path that bypasses the heat exchanger;
The heat exchanger and a switching valve for switching the intake path,
The heat exchanger and the outlet of the intake passage communicate with the second intake port .

Thereby, the thrown-in garbage is compressed by the first conveying means and the first heating means, the moisture contained in the garbage is raised on the surface of the garbage, and the moisture is heated. The compressed and heated garbage is stirred and pulverized by the loosening means, and further compressed and heated again by the second conveying means and the second heating means. Therefore, it is possible to directly heat the water that emerges during compression, and to make the distribution of the water contained in the garbage uniform with the loosening means, and to compress the heat again, thereby concentrating the heat energy in part. However, the temperature of the garbage can be quickly raised and the heat treatment can be performed while being conveyed, so that the garbage can be continuously heated. In other words, the garbage can be dried in a short time with less power consumption and without uneven drying.
Further, in the information detected by the first and second temperature detection means, when the temperature of the garbage processing machine body is higher than the outside air, the heat exchanger collects the exhaust heat, and the outside air is more When the wind is high, the switching valve is operated to switch to the intake path and blown to the loosening means. Therefore, thermal efficiency is improved, and processing can be performed in a short time with a small amount of power consumption.

  The garbage drying processing machine of the present invention can dry garbage in a short time with less power consumption and without uneven drying.

The first invention is
First conveying means for compressing and conveying the input garbage,
First heating means for heating the surface of the first conveying means;
Unraveling means for stirring and crushing the garbage heated and compressed on the downstream side of the first conveying means;
Second conveying means for compressing and conveying the garbage again on the downstream side of the loosening means;
Second heating means for heating the surface of the second conveying means;
Intake and exhaust means for discharging steam,
The loosening means is
A second intake port and a second exhaust port communicating with the intake and exhaust means;
The intake and exhaust means is
First temperature detection means and a heat exchanger provided in the vicinity of the exhaust port of the intake and exhaust means ;
Second temperature detection means provided near the intake port of the intake and exhaust means;
An intake passage to bypass the heat exchanger,
And a switching valve for switching the air inlet path and said heat exchanger,
By the outlet of the intake path and the heat exchanger is in communication with said second inlet,
The thrown-in garbage is compressed by the first conveying means and the first heating means, the moisture contained in the garbage is raised on the surface of the garbage, and the moisture is heated. The compressed and heated garbage is stirred and pulverized by the loosening means, and further compressed and heated again by the second conveying means and the second heating means. Therefore, it is possible to directly heat the water that emerges during compression, and to make the distribution of the water contained in the garbage uniform with the loosening means, and to compress the heat again, thereby concentrating the heat energy in part. However, the temperature of the garbage can be quickly raised and the heat treatment can be performed while being conveyed, so that the garbage can be continuously heated. In other words, the garbage can be dried in a short time with less power consumption and without uneven drying.
Further, in the information detected by the first and second temperature detection means, when the temperature of the garbage processing machine body is higher than the outside air, the heat exchanger collects the exhaust heat, and the outside air is more When the wind is high, the switching valve is operated to switch to the intake path and blown to the loosening means. Therefore, thermal efficiency is improved, and processing can be performed in a short time with a small amount of power consumption.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
FIG. 1 shows a garbage drying processor in Embodiment 1 of the present invention.

  As shown in the figure, the main body 1 of the garbage drying processing machine is provided with a lid 2 on the upper part thereof, and is provided with an input unit 4 for introducing the garbage 3.

  The first transport unit 5 communicates with the input unit 4. In the figure, the first conveying means 5 is composed of a pair of substantially cylindrical members and conveys the garbage 3 by rotation. However, the first conveying means 5 may convey a flat portion such as a belt conveyor. The first heating means 6 heats the surface of the first transport means 5. The heat source of the first heating means 6 may be a planar heater as shown, a sheathed heater, a coil for passing a high-frequency current for induction heating, or the like.

  In the present embodiment, the first heating means 6 is built in the first conveying means 5, but is not limited to this, and is provided outside the first conveying means 5. However, there is no problem as long as the amount of heat can be supplied to the surface of the first conveying means 5. As illustrated, the heat source of the first heating unit 6 may be provided on the entire surface of the first transport unit 5 or may be provided at a position where the compression heating unit 7 is locally heated.

  Moreover, when the 1st heating means 6 is provided locally, it cannot be overemphasized that it is preferable to fix so that it may not move with the 1st conveyance means 5. The compression heating unit 7 is formed by at least one or more first conveying means 5 and is a path for conveying the garbage 3 while compressing it. In addition, although the conveyance direction of the 1st conveyance means 5 is shown by the arrow, it can also convey in the reverse direction, and even if garbage 3 etc. are jammed during conveyance, it can convey and take out in the reverse direction. It has become.

  The scraper 8 is provided for scraping off the garbage 3 attached to the surface of the first conveying means 5. The scraper 8 is elastically pressed against the surface of the first conveying means 5 and is made of a metal such as stainless steel or a plated steel plate, or a resin such as ABS, polypropylene, polyester, polybutylene terephthalate, polycarbonate, or polyacetal. Nail-like or brush-like, or made of an elastic material such as silicon rubber, hibaron, chloroprene rubber.

  The loosening means 9 communicates with the downstream side of the first conveying means 5 and has various configurations such as a shredder (cutting machine) and a mixer (blender) and mincher (minced meat machine). Garbage can be crushed or stirred. The second conveying means 10 and the second heating means 11 communicate with the downstream side of the loosening means 9 and have the same configuration as the first conveying means 5 and the first heating means 6, respectively.

  The storage unit 12 communicates with the second transport unit 10 and is heated by the compression heating unit 7 and the like, and the dried garbage 3 is stored therein. The intake / exhaust means 13 includes an intake port 14, an exhaust port 15, and a blower unit 16, and performs intake / exhaust from the inside of the main body 1, that is, from the input unit 4 to the storage unit 12.

  The deodorizing means (not shown) communicates with the intake / exhaust means 13 and deodorizes the odor component of the steam generated from the heated garbage 3. As the deodorizing means, an adsorbent such as zeolite or silica gel, or a catalyst such as platinum or palladium is used.

  The control means 17 is installed in the main body 1, and the operation of the first conveying means 5, the second conveying means 10, the loosening means 9, and the first heating are determined based on temperature information of the intake / exhaust means 13. The input power of the means 6 and the second heating means 11 is controlled.

  About the garbage drying processing machine comprised as mentioned above, the operation | movement and an effect | action are demonstrated below.

  First, the lid 2 is opened, the garbage 3 is inserted into the input section 4, and the power is turned on. The first heating means 6, the second heating means 11, and the intake / exhaust means 13 operate. The charging unit 4 may be provided with a pulverizing unit configured as a loosening unit 9 so that the garbage 3 can be easily conveyed. If the surface temperatures of the first conveying means 5 and the second conveying means 10 reach a predetermined temperature, for example, 120 to 130 ° C., by the amount of heat supplied from the first heating means 6 and the second heating means 11. The control unit 17 starts the operation of the first transfer unit 5 and the second transfer unit 10.

  The garbage 3 is conveyed to the compression heating unit 7 by the first conveying means 5. As shown in the drawing, the conveyance direction may be conveyed in a substantially vertical direction from top to bottom, or may be conveyed in a substantially horizontal direction. In the case of the substantially vertical direction, there is an influence of gravity and it is easy to convey. However, in the case of the substantially horizontal direction, it is only necessary to provide a groove or the like on the surface of the first conveying means 5 to ensure the conveyance. . When the garbage 3 passes through the compression heating unit 7, it is rolled into a thin plate shape, further heated and dried by the first heating unit 6, and sent to the loosening unit 9 communicating with the compression heating unit 7. .

  Further, since the food is quickly dried at the time of drying, the garbage 3 adhering to the surface of the first conveying means 5 is scraped off by the scraper 8 biased to the surface of the first conveying means 5 and is loosened. It is designed to be conveyed. Although the garbage 3 which passed through the compression heating part 7 becomes thin plate shape, depending on the water | moisture content contained in the garbage 3, only the surface is heated well and a water | moisture content may remain inside. Even if it is going to process with the 2nd conveyance means 10 in order to heat a residual moisture again, if it remains thin plate shape, the surface will become overdried and the heat transfer to internal moisture will also worsen.

  The loosening means 9 once distributes the moisture contained in the garbage 3 substantially uniformly by stirring or crushing the garbage 3 compressed and heated by the compression heating unit 7 of the first transport means 5. Then, the second conveying means 10 and the second heating means 11 are again compressed and heated. Moisture evaporated from the garbage 3 is deodorized by the deodorizing means by the intake / exhaust means 13 and discharged from the exhaust port 15 to the outside of the main body 1.

  Further, a temperature detection means such as a thermistor (not shown) or temperature / humidity detection means is provided on the exhaust port 15 side of the intake / exhaust means 13, and the control means 17 is controlled by the exhaust temperature data or temperature / humidity data. It is determined whether the end condition of the drying process has been reached. If the end condition is confirmed, the control means 17 stops the operation of the first heating means 6 and the second heating means 11, the first conveying means 5, the second conveying means 10, and the loosening means 9, and turns on the power. Turn off. Moreover, the insertion part 4 and the accommodating part 12 are removable from the main body 1, and can be cleaned easily.

  In addition, a bag made of polyethylene or the like may be installed in the storage unit 12 so as to store the treated garbage 3. If the bag entrance is heat-sealed with a sealer after storage, it will not smell when the garbage 3 is thrown away.

  As described above, in the present embodiment, the first conveying means 5 that compresses and conveys the input garbage, the first heating means 6 that heats the surface of the first conveying means 5, A loosening means 9 for stirring and pulverizing the garbage 3 compressed and heated on the downstream side of the first conveying means 5, and a second conveying means 10 for compressing and conveying the garbage 3 again on the downstream side of the loosening means 9. And the second heating means 11 for heating the surface of the second conveying means 10 and the intake / exhaust means for discharging the steam, Compressed by the first heating means 6, the moisture contained in the garbage 3 floats up on the surface of the garbage 3, and the moisture is heated. The compressed and heated garbage 3 is stirred and pulverized by the loosening means 9 and further compressed and heated again by the second conveying means 10 and the second heating means 11. Moisture that has been raised can be directly heated during compression, and the distribution of moisture contained in the garbage 3 can be made uniform by the loosening means 9, and heat energy can be concentrated in part by compressing and heating again. The temperature of the garbage 3 can be raised quickly.

  Accordingly, the thermal efficiency of the garbage 3 is improved, and the drying unevenness is eliminated, so that it can be processed in a short time with a small amount of power consumption. Moreover, since it can heat-process while conveying with the 1st and 2nd conveying means 5 and 10, the garbage 3 can be thrown in continuously and usability improves.

  In the present embodiment, the second conveying means 10 is configured to have a smaller compression width or a larger compressive force than the first conveying means 5. The garbage 3 whose moisture has evaporated and whose volume has been reduced by the first conveying means 5 and the first heating means 6 is conveyed to the loosening means 9. The loosening means 9 stirs and pulverizes the water so that it is substantially uniform. However, since the absolute amount of water is smaller than that in the first conveying means 5, the second conveying means 10 is compressed. By reducing the width or increasing the compression force, moisture contained in the garbage 3 can be lifted to the surface. Further, since the volume is small, the conveyance speed is not significantly reduced even if the compression width is small. Accordingly, the thermal efficiency of the garbage 3 is improved, and the drying unevenness is eliminated, so that it can be processed in a short time with a small amount of power consumption.

  In the present embodiment, the second heating unit 11 may be configured to set the power density smaller than that of the first heating unit 6. The first conveying means 5 and the second conveying means 10 are provided with temperature detecting means (not shown) such as a thermistor for detecting the surface temperature, particularly the temperature of the compression heating unit 7. In the first conveying means 5 communicating with the charging unit 4, the amount of water contained in the garbage 3 is large, and is heated and dried by the first conveying means 5, and then passed through the loosening means 9 to the second conveying means 10. When it comes, the amount of water contained in the garbage 3 is reduced. Since the first heating unit 6 is deprived of evaporation energy more than the second heating unit 11, the surface temperature of the first transport unit 5 does not rapidly increase, and the surface of the temperature detection unit There is little decrease in the energization rate due to temperature adjustment.

  Therefore, even if the total power that can be loaded on the first heating means 6 and the second heating means 11 is the same, the power density can be increased by changing the power density in accordance with the amount of moisture to be processed. Evaporation energy can be transmitted to the moisture contained in the garbage 3. In other words, the thermal efficiency of the garbage 3 can be improved, and processing can be performed with a small amount of power consumption in a short time.

(Embodiment 2)
FIG. 2 shows a garbage drying processor in Embodiment 2 of the present invention. The same elements as those of the first embodiment are denoted by the same reference numerals and the description thereof is omitted.

  In the garbage drying processing machine according to the present embodiment, the loosening means 9 is configured to be detachable in the horizontal direction with respect to the first conveying means 5 and the second conveying means 10. The main body 1 is provided with a second lid 18 that can be opened and closed in order to attach and detach the loosening means 9. Other configurations are the same as those in the first embodiment.

  As shown in the figure, the second lid 18 is locked by the control means 17 and cannot be opened while the first transport means 5 and the like are operating. When the operation stops, the lock is released and can be opened and closed. The first conveying means 5 and the second conveying means 10 can be attached to and detached from the main body 1 while the loosening means 9 is attached. The bottom of the illustrated loosening means 9 is provided with a passage so as to communicate with the second conveying means 10.

  In addition, a stopper is provided in the main body 1 so that the first conveying means 5 and the second conveying means 10 can be aligned when the cleaned loosening means 9 is installed in the main body 1 again.

  As described above, in the present embodiment, the loosening means 9 is configured to be detachable in the horizontal direction with respect to the first transport means 5 and the second transport means 10, so that the first transport means 5. The second conveying means 10 can be attached to and detached from the loosening means 9 while being attached to the main body 1. Therefore, since the dirt of the loosening means 9 can be easily maintained, the loosening means 9 can maintain the performance without clogging the garbage 3 being processed, and can be processed continuously. In other words, usability is improved and processing can be performed in a short time with a small amount of power consumption.

(Embodiment 3)
FIG. 3 shows a garbage drying processor in Embodiment 3 of the present invention. The same elements as those of the first embodiment are denoted by the same reference numerals and the description thereof is omitted.

  In the garbage drying processing machine according to the present embodiment, the loosening means 9 includes a second air inlet 19 and a second air outlet 20 that communicate with the air intake / exhaust means 13. In addition to the second air inlet 19, a gap for taking in outside air is provided in the main body 1. Other configurations are the same as those in the first embodiment.

  As shown in the figure, the input garbage 3 is compressed and heated by the first conveying means 5 and then conveyed to the loosening means 9. When the garbage 3 is stirred and pulverized, it stays in the loosening means 9 for a while. By stirring and pulverizing, the surface area of the garbage 3 is increased, and when the outside air sucked from the second air inlet 19 is blown here, evaporation of moisture is promoted. The evaporated water is exhausted from the exhaust port 15 of the intake / exhaust unit 13 to the outside of the main body 1 through the second exhaust port 20, so that the raw water being processed by the first transport unit 5 and the second transport unit 10 is exhausted. There is no dew condensation in contact with garbage 3 etc.

  Further, the water evaporated by the first transport unit 5 and the second transport unit 10 is also exhausted from the exhaust port 15 by outside air from the intake port other than the second intake port 19 provided in the main body 1. Needless to say.

  As described above, in the present embodiment, the loosening means 9 includes the second intake port 19 and the second exhaust port 20 that communicate with the intake / exhaust means 13. A certain amount of air is blown to the garbage 3 being processed, and the moisture contained in the garbage 3 is evaporated and released to the outside. Moreover, the vapor | steam emitted from the garbage 3 of the loosening means 9 does not come into contact with the garbage 3 or the like being processed by the first conveying means 5 or the second conveying means 10 and dew condensation.

  Therefore, the thermal efficiency of the garbage 3 is improved, and drying unevenness is eliminated, so that it can be processed in a short time with a small amount of power consumption.

(Embodiment 4)
FIG. 4 shows a garbage drying processor in Embodiment 4 of the present invention. The same elements as those of the first embodiment are denoted by the same reference numerals and the description thereof is omitted.

  In the garbage drying processing apparatus of the present embodiment, the intake / exhaust means 13 includes the first temperature detecting means 21 and the heat exchanger 23 provided near the exhaust port 15 and the second temperature provided near the intake port 14. It has a detection means 22, an intake passage 24 that bypasses the heat exchanger 23, and a switching valve 25 that switches between the heat exchanger 23 and the intake passage 24, and the outlet of the heat exchanger 23 and the intake passage 24 is the second. It communicates with the air inlet 19. Other configurations are the same as those in the first embodiment.

  First, the lid 2 is opened, the garbage 3 is inserted into the input section 4, and the power is turned on. The first heating means 6, the second heating means 11, and the intake / exhaust means 13 operate. At the same time, the switching valve 25 operates to open the intake passage 24. The outside air sucked from the intake port 14 is detected by the second temperature detection means 22 at the temperature T2, and is exhausted from the exhaust port 15 via the inside of the main body 1. At that time, the temperature T1 is detected by the first temperature detecting means 21.

  When the control means 17 has a value T2 larger than T1, the switching valve 25 opens the intake passage 24. When T2 is smaller than T1, the switching valve 25 operates in a direction passing through the heat exchanger 23. The sucked air having good temperature conditions is blown from the second intake port 19 to the garbage 3 being processed by the loosening means 9 and is exhausted from the second exhaust port 20 together with the evaporated water. Further, the air is exhausted from the exhaust port 15 communicating with the second exhaust port 20 to the outside of the main body 1.

  As described above, in the present embodiment, in the information detected by the first and second temperature detection means 21 and 22, when the temperature of the main body 1 of the garbage processing machine is higher than the outside air, Exhaust heat is recovered by the exchanger 23, and when the outside air is at a higher wind, the switching valve 25 is operated to switch to the intake path 24 and blown to the loosening means 9. Therefore, thermal efficiency is improved, and processing can be performed in a short time with a small amount of power consumption.

(Embodiment 5)
FIG. 5 shows a garbage drying processor in Embodiment 5 of the present invention. The same elements as those of the first embodiment are denoted by the same reference numerals and the description thereof is omitted.

  In the garbage drying processing machine according to the present embodiment, the loosening means 9 includes a third heating means 26 provided near the second intake port 19 and a third temperature detection provided near the second exhaust port 20. Means 27 are provided. Other configurations are the same as those in the first embodiment.

  The thrown garbage 3 is conveyed to the loosening means 9 through the first conveying means 5. The outside air sucked from the second air inlet 19 is heated by the third heating means 26 and exhausted from the second air outlet 20 via the loosening means 9. At that time, the exhaust temperature is detected by the third temperature detecting means 27. The input power of the third heating means 26 is adjusted so that the vicinity of the loosening means 9 is 130 ° C. or less in the state where there is no garbage 3.

  If the garbage 3 contains moisture, it takes latent heat and gives sensible heat. Therefore, the temperature of the warm air by the third heating means 26 is about 100 to 105 ° C. by the third temperature detecting means 27. Detected. In this case, the control unit 17 continues the operation of the third heating unit 26. On the other hand, even if the garbage 3 is in the loosening means 9, if the third temperature detection means 27 detects around 130 ° C., it is determined that the garbage 3 is dry, and the control means 17 The operation of the third heating means 26 is stopped.

  As described above, in the present embodiment, the dried state of the garbage conveyed to the loosening means 9 can be detected by the third temperature detecting means 27, and when it is determined that the amount is larger than the predetermined amount of water, By operating the third heating means 26, the warm air is loosened and blown to the means 9. Therefore, it can be effectively processed according to the dry state of the garbage, can be continuously processed in a short time, and is easy to use.

(Embodiment 6)
FIG. 6 shows a garbage drying processor in Embodiment 6 of the present invention. The same elements as those of the first embodiment are denoted by the same reference numerals and the description thereof is omitted.

  In the garbage drying processing machine according to the present embodiment, the second transport unit 10 includes a third exhaust port 28 communicating with the intake / exhaust unit 13. Other configurations are the same as those in the first embodiment.

  The garbage 3 stirred and pulverized by the loosening means 9 is conveyed to a second conveyance means 10 communicating with the loosening means 9. When compressed and heated by the second conveying means 10, the evaporated moisture of the garbage 3 does not pass through the loosening means 9 that is communicated, but is exhausted from the third exhaust port 28. The air is exhausted from the 13 exhaust ports 15 to the outside of the main body 1.

  As described above, in the present embodiment, the second transport unit 10 includes the third exhaust port 28 that communicates with the intake / exhaust unit 13, so that the second transport unit 10 evaporates. The water in the garbage 3 is exhausted from the third exhaust port 28. Therefore, the moisture evaporated by the second conveying means 10 does not pass through the loosening means 9 and adheres to the garbage 3 being processed and does not condense, so that it is possible to prevent the loss of reheating the condensed moisture. . That is, the thermal efficiency of the garbage 3 is improved, and processing can be performed in a short time with a small amount of power consumption.

  Note that the configurations of the above-described embodiments can be used in appropriate combinations as necessary, and are not limited to the embodiments themselves.

  As described above, since the garbage drying processing machine according to the present invention can dry garbage in a short time with less power consumption, without drying unevenness, garbage drying processing for general household use and business use. Applicable as a machine.

The longitudinal cross-sectional view of the garbage drying processing machine in Embodiment 1 of this invention The longitudinal cross-sectional view of the garbage drying processing machine in Embodiment 2 of this invention The longitudinal cross-sectional view of the garbage drying processing machine in Embodiment 3 of this invention The longitudinal cross-sectional view of the garbage drying processing machine in Embodiment 4 of this invention The longitudinal cross-sectional view of the garbage drying processing machine in Embodiment 5 of this invention The principal part longitudinal cross-sectional view of the garbage drying processing machine in Embodiment 6 of this invention Longitudinal section of a conventional garbage drying machine

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Main body 3 Garbage 5 1st conveyance means 6 1st heating means 9 Unraveling means 10 2nd conveyance means 11 2nd heating means 13 Intake / exhaust means 17 Control means 19 2nd inlet 20 20 Second exhaust Port 21 First temperature detection means 22 Second temperature detection means 23 Heat exchanger 24 Intake path 25 Switching valve 26 Third heating means 27 Third temperature detection means 28 Third exhaust port

Claims (1)

First conveying means for compressing and conveying the input garbage,
First heating means for heating the surface of the first conveying means;
Unraveling means for stirring and crushing the garbage heated and compressed on the downstream side of the first conveying means;
Second conveying means for compressing and conveying the garbage again on the downstream side of the loosening means;
Second heating means for heating the surface of the second conveying means;
Intake and exhaust means for discharging steam,
The loosening means is
A second intake port and a second exhaust port communicating with the intake and exhaust means;
The intake and exhaust means is
First temperature detection means and a heat exchanger provided in the vicinity of the exhaust port of the intake and exhaust means ;
Second temperature detection means provided near the intake port of the intake and exhaust means;
An intake passage to bypass the heat exchanger,
And a switching valve for switching the air inlet path and said heat exchanger,
That the outlet of the intake path and the heat exchanger is in communication with the second inlet
Food waste drying machine.

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